2016-252 BIOMASS-DERIVED POLYMERS AND COPOLYMERS INCORPORATING MONOLIGNOLS AND THEIR DERIVATIVES

Biomass-Derived Polymers And Copolymers Incorporating Monolignols And Their Derivatives

 

SUMMARY

UCLA researchers in the Departments of Bioengineering, Chemistry and Biochemistry have developed a novel synthetic strategy for the fabrication of biomass-derived polymers incorporating underutilized lignin derivatives.

 

BACKGROUND

Polyamide polymers and benzoxazine resins are important materials used in a wide variety of products and manufacturing including the automotive, plastics, and nylons industries. Current methods to produce these polymers and resins utilize a diminishing supply of petroleum-based chemical precursors. While there has been some work identifying biomass-derived materials, they are typically mechanically weaker or have a reduced material lifespan. As the only natural aromatic polymer source, lignin could replace petroleum-derived aromatics in the synthesis of aromatic-based commodity polymeric materials.

 

INNOVATION

  • Use of biomass-derived reagents for the creation of polyamide polymers, co-polymers, and resins
  • Polymers fabricated through their new synthetic route incorporate underutilized chemicals derived from renewable lignocellulosic biomass feedstocks

 

APPLICATIONS

Monolignol-based polyamide polymers

  • Textiles (e.g. nylons, Nomex, and Kevlar)
  • Bioplastics

 

Monolignol-based polyamide graft co-polymers of itaconic acid and Tulipalin A

  • Flocculants to remove heavy metals from solution
  • Water remediation and processing
  • Highly absorbent polymers 

 

Monolignol-based benzoxazines and polybenzoxazines

  • Thermoset resin
  • Mechanical and structural resin

 

ADVANTAGES

This technology utilizes biomass to generate polymers with properties similar to commercially available materials.

 

STATE OF DEVELOPMENT

Researchers have detailed methods and synthetic schemes for the fabrication of these polymers. Additionally, these polymers have been characterized as having moderate molecular weight and polydispersity, as well as moderately thermostable.

 

RELATED MATERIALS

Strategies for the Conversion of Lignin to High-Value Polymeric Materials: Review and Perspective Chem Rev. 2016 Feb 24;116(4):2275-306. doi: 10.1021/acs.chemrev.5b00345. Epub 2015 Dec 14.

Patent Information:
For More Information:
Thibault Renac
Business Development Officer
Thibault.Renac@tdg.ucla.edu
Inventors:
Andrea Kasko
Brianna Upton